Abstract

Bimetallic catalysts exhibit excellent synergistic catalytic performance for volatile organic compounds (VOCs) oxidation. However, it remains challenging to design more active, selective, and stable bimetallic catalytic systems for the practical oxidation of various VOCs. Here, by integrating porous metal-organic frameworks as support, platinum as catalytic center, and cobalt as promoter, we obtained a synergistic and stable Pt–Co/UiO-66 catalytic system, with highly dispersed active sites for various VOCs oxidation. Pt–Co/UiO-66 exhibited better catalytic performances than monometallic constituents in toluene, n-hexane, and ethyl acetate oxidation. Besides, Pt–Co/UiO-66 showed high reusability, water or CO2 resistance, long-term activity over 120 h, and structural stability. Furthermore, the reaction pathway and mechanism of toluene oxidation were investigated by in-situ diffuse reflectance infrared Fourier transform spectroscopy and online gas chromatography-mass spectrometer. We believe that this work will provide a useful idea for developing effective bimetallic catalysts in environmental catalysis.

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